/******************************************************************************
 *
 * Project:  ILWIS Driver
 * Purpose:  GDALDataset driver for ILWIS translator for read/write support.
 * Author:   Lichun Wang, lichun@itc.nl
 *
 ******************************************************************************
 * Copyright (c) 2004, ITC
 * Copyright (c) 2008-2010, Even Rouault <even dot rouault at spatialys.com>
 *
 * SPDX-License-Identifier: MIT
 ****************************************************************************/

#include "ilwisdataset.h"
#include <cfloat>
#include <climits>

#include <algorithm>
#include <cmath>
#include <limits>
#include <memory>
#include <string>

#include "gdal_frmts.h"

namespace GDAL
{

// IniFile.cpp: implementation of the IniFile class.
//
//////////////////////////////////////////////////////////////////////
bool CompareAsNum::operator()(const std::string &s1,
                              const std::string &s2) const
{
    int Num1 = atoi(s1.c_str());
    int Num2 = atoi(s2.c_str());
    return Num1 < Num2;
}

static std::string TrimSpaces(const std::string &input)
{
    // find first non space
    if (input.empty())
        return std::string();

    const size_t iFirstNonSpace = input.find_first_not_of(' ');
    const size_t iFindLastSpace = input.find_last_not_of(' ');
    if (iFirstNonSpace == std::string::npos ||
        iFindLastSpace == std::string::npos)
        return std::string();

    return input.substr(iFirstNonSpace, iFindLastSpace - iFirstNonSpace + 1);
}

static std::string GetLine(VSILFILE *fil)
{
    const char *p = CPLReadLineL(fil);
    if (p == nullptr)
        return std::string();

    return CPLString(p).Trim();
}

//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
IniFile::IniFile(const std::string &filenameIn)
    : filename(filenameIn), bChanged(false)  // Start tracking changes.
{
    Load();
}

IniFile::~IniFile()
{
    if (bChanged)
    {
        Store();
        bChanged = false;
    }

    for (Sections::iterator iter = sections.begin(); iter != sections.end();
         ++iter)
    {
        (*(*iter).second).clear();
        delete (*iter).second;
    }

    sections.clear();
}

void IniFile::SetKeyValue(const std::string &section, const std::string &key,
                          const std::string &value)
{
    Sections::iterator iterSect = sections.find(section);
    if (iterSect == sections.end())
    {
        // Add a new section, with one new key/value entry
        SectionEntries *entries = new SectionEntries;
        (*entries)[key] = value;
        sections[section] = entries;
    }
    else
    {
        // Add one new key/value entry in an existing section
        SectionEntries *entries = (*iterSect).second;
        (*entries)[key] = value;
    }
    bChanged = true;
}

std::string IniFile::GetKeyValue(const std::string &section,
                                 const std::string &key)
{
    Sections::iterator iterSect = sections.find(section);
    if (iterSect != sections.end())
    {
        SectionEntries *entries = (*iterSect).second;
        SectionEntries::iterator iterEntry = (*entries).find(key);
        if (iterEntry != (*entries).end())
            return (*iterEntry).second;
    }

    return std::string();
}

void IniFile::RemoveKeyValue(const std::string &section, const std::string &key)
{
    Sections::iterator iterSect = sections.find(section);
    if (iterSect != sections.end())
    {
        // The section exists, now erase entry "key"
        SectionEntries *entries = (*iterSect).second;
        (*entries).erase(key);
        bChanged = true;
    }
}

void IniFile::RemoveSection(const std::string &section)
{
    Sections::iterator iterSect = sections.find(section);
    if (iterSect != sections.end())
    {
        // The section exists, so remove it and all its entries.
        SectionEntries *entries = (*iterSect).second;
        (*entries).clear();
        sections.erase(iterSect);
        bChanged = true;
    }
}

void IniFile::Load()
{
    VSILFILE *filIni = VSIFOpenL(filename.c_str(), "r");
    if (filIni == nullptr)
        return;

    std::string section, key, value;

    enum ParseState
    {
        FindSection,
        FindKey,
        ReadFindKey,
        StoreKey,
        None
    } state = FindSection;

    std::string s;
    while (!VSIFEofL(filIni) || !s.empty())
    {
        switch (state)
        {
            case FindSection:
                s = GetLine(filIni);
                if (s.empty())
                    continue;

                if (s[0] == '[')
                {
                    size_t iLast = s.find_first_of(']');
                    if (iLast != std::string::npos)
                    {
                        section = s.substr(1, iLast - 1);
                        state = ReadFindKey;
                    }
                }
                else
                    state = FindKey;
                break;
            case ReadFindKey:
                s = GetLine(filIni);  // fall through (no break)
                [[fallthrough]];
            case FindKey:
            {
                size_t iEqu = s.find_first_of('=');
                if (iEqu != std::string::npos)
                {
                    key = s.substr(0, iEqu);
                    value = s.substr(iEqu + 1);
                    state = StoreKey;
                }
                else
                    state = ReadFindKey;
            }
            break;
            case StoreKey:
                SetKeyValue(section, key, value);
                state = FindSection;
                break;

            case None:
                // Do we need to do anything?  Perhaps this never occurs.
                break;
        }
    }

    bChanged = false;

    VSIFCloseL(filIni);
}

void IniFile::Store()
{
    VSILFILE *filIni = VSIFOpenL(filename.c_str(), "w+");
    if (filIni == nullptr)
        return;

    Sections::iterator iterSect;
    for (iterSect = sections.begin(); iterSect != sections.end(); ++iterSect)
    {
        CPLString osLine;

        // write the section name
        osLine.Printf("[%s]\r\n", (*iterSect).first.c_str());
        VSIFWriteL(osLine.c_str(), 1, osLine.size(), filIni);
        SectionEntries *entries = (*iterSect).second;
        SectionEntries::iterator iterEntry;
        for (iterEntry = (*entries).begin(); iterEntry != (*entries).end();
             ++iterEntry)
        {
            std::string key = (*iterEntry).first;
            osLine.Printf("%s=%s\r\n", TrimSpaces(key).c_str(),
                          (*iterEntry).second.c_str());
            VSIFWriteL(osLine.c_str(), 1, osLine.size(), filIni);
        }

        VSIFWriteL("\r\n", 1, 2, filIni);
    }

    VSIFCloseL(filIni);
}

// End of the implementation of IniFile class. ///////////////////////
//////////////////////////////////////////////////////////////////////

static int intConv(double x)
{
    if ((x == rUNDEF) || (x > INT_MAX) || (x < INT_MIN))
        return iUNDEF;

    return (int)floor(x + 0.5);
}

std::string ReadElement(const std::string &section, const std::string &entry,
                        const std::string &filename)
{
    if (section.empty())
        return std::string();
    if (entry.empty())
        return std::string();
    if (filename.empty())
        return std::string();

    IniFile MyIniFile(filename);

    return MyIniFile.GetKeyValue(section, entry);
}

bool WriteElement(const std::string &sSection, const std::string &sEntry,
                  const std::string &fn, const std::string &sValue)
{
    if (fn.empty())
        return false;

    IniFile MyIniFile(fn);

    MyIniFile.SetKeyValue(sSection, sEntry, sValue);
    return true;
}

bool WriteElement(const std::string &sSection, const std::string &sEntry,
                  const std::string &fn, int nValue)
{
    if (fn.empty())
        return false;

    char strdouble[45];
    snprintf(strdouble, sizeof(strdouble), "%d", nValue);
    std::string sValue = std::string(strdouble);
    return WriteElement(sSection, sEntry, fn, sValue);
}

bool WriteElement(const std::string &sSection, const std::string &sEntry,
                  const std::string &fn, double dValue)
{
    if (fn.empty())
        return false;

    char strdouble[45];
    CPLsnprintf(strdouble, sizeof(strdouble), "%.6f", dValue);
    std::string sValue = std::string(strdouble);
    return WriteElement(sSection, sEntry, fn, sValue);
}

static CPLErr GetRowCol(const std::string &str, int &Row, int &Col)
{
    std::string delimStr = " ,;";
    size_t iPos = str.find_first_of(delimStr);
    if (iPos != std::string::npos)
    {
        Row = atoi(str.substr(0, iPos).c_str());
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Read of RowCol failed.");
        return CE_Failure;
    }
    iPos = str.find_last_of(delimStr);
    if (iPos != std::string::npos)
    {
        Col = atoi(str.substr(iPos + 1, str.length() - iPos).c_str());
    }
    return CE_None;
}

//! Converts ILWIS data type to GDAL data type.
static GDALDataType ILWIS2GDALType(ilwisStoreType stStoreType)
{
    GDALDataType eDataType = GDT_Unknown;

    switch (stStoreType)
    {
        case stByte:
        {
            eDataType = GDT_Byte;
            break;
        }
        case stInt:
        {
            eDataType = GDT_Int16;
            break;
        }
        case stLong:
        {
            eDataType = GDT_Int32;
            break;
        }
        case stFloat:
        {
            eDataType = GDT_Float32;
            break;
        }
        case stReal:
        {
            eDataType = GDT_Float64;
            break;
        }
        default:
        {
            break;
        }
    }

    return eDataType;
}

// Determine store type of ILWIS raster
static std::string GDALType2ILWIS(GDALDataType type)
{
    std::string sStoreType = "";
    switch (type)
    {
        case GDT_Byte:
        {
            sStoreType = "Byte";
            break;
        }
        case GDT_Int16:
        case GDT_UInt16:
        {
            sStoreType = "Int";
            break;
        }
        case GDT_Int32:
        case GDT_UInt32:
        {
            sStoreType = "Long";
            break;
        }
        case GDT_Float32:
        {
            sStoreType = "Float";
            break;
        }
        case GDT_Float64:
        {
            sStoreType = "Real";
            break;
        }
        default:
        {
            CPLError(CE_Failure, CPLE_NotSupported,
                     "Data type %s not supported by ILWIS format.\n",
                     GDALGetDataTypeName(type));
            break;
        }
    }
    return sStoreType;
}

static CPLErr GetStoreType(const std::string &pszFileName,
                           ilwisStoreType &stStoreType)
{
    std::string st = ReadElement("MapStore", "Type", pszFileName.c_str());

    if (EQUAL(st.c_str(), "byte"))
    {
        stStoreType = stByte;
    }
    else if (EQUAL(st.c_str(), "int"))
    {
        stStoreType = stInt;
    }
    else if (EQUAL(st.c_str(), "long"))
    {
        stStoreType = stLong;
    }
    else if (EQUAL(st.c_str(), "float"))
    {
        stStoreType = stFloat;
    }
    else if (EQUAL(st.c_str(), "real"))
    {
        stStoreType = stReal;
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Unsupported ILWIS store type.");
        return CE_Failure;
    }
    return CE_None;
}

ILWISDataset::ILWISDataset() : bGeoDirty(FALSE), bNewDataset(FALSE)
{
    m_oSRS.SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
    adfGeoTransform[0] = 0.0;
    adfGeoTransform[1] = 1.0;
    adfGeoTransform[2] = 0.0;
    adfGeoTransform[3] = 0.0;
    adfGeoTransform[4] = 0.0;
    adfGeoTransform[5] = 1.0;
}

/************************************************************************/
/*                  ~ILWISDataset()                                     */
/************************************************************************/

ILWISDataset::~ILWISDataset()

{
    ILWISDataset::FlushCache(true);
}

/************************************************************************/
/*                        CollectTransformCoef()                        */
/*                                                                      */
/*      Collect the geotransform, support for the GeoRefCorners         */
/*      georeferencing only; We use the extent of the coordinates       */
/*      to determine the pixelsize in X and Y direction. Then calculate */
/*      the transform coefficients from the extent and pixelsize        */
/************************************************************************/

void ILWISDataset::CollectTransformCoef(std::string &osRefname)

{
    osRefname = "";
    std::string georef;
    if (EQUAL(pszFileType.c_str(), "Map"))
        georef = ReadElement("Map", "GeoRef", osFileName);
    else
        georef = ReadElement("MapList", "GeoRef", osFileName);

    // Capture the geotransform, only if the georef is not 'none',
    // otherwise, the default transform should be returned.
    if (!georef.empty() && !EQUAL(georef.c_str(), "none"))
    {
        // Form the geo-referencing name
        const std::string osBaseName = CPLGetBasenameSafe(georef.c_str());
        const std::string osPath = CPLGetPathSafe(osFileName);
        osRefname =
            CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "grf");

        // Check the geo-reference type,support for the GeoRefCorners only
        std::string georeftype = ReadElement("GeoRef", "Type", osRefname);
        if (EQUAL(georeftype.c_str(), "GeoRefCorners"))
        {
            // Center or top-left corner of the pixel approach?
            std::string IsCorner =
                ReadElement("GeoRefCorners", "CornersOfCorners", osRefname);

            // Collect the extent of the coordinates
            std::string sMinX = ReadElement("GeoRefCorners", "MinX", osRefname);
            std::string sMinY = ReadElement("GeoRefCorners", "MinY", osRefname);
            std::string sMaxX = ReadElement("GeoRefCorners", "MaxX", osRefname);
            std::string sMaxY = ReadElement("GeoRefCorners", "MaxY", osRefname);

            // Calculate pixel size in X and Y direction from the extent
            double deltaX = CPLAtof(sMaxX.c_str()) - CPLAtof(sMinX.c_str());
            double deltaY = CPLAtof(sMaxY.c_str()) - CPLAtof(sMinY.c_str());

            double PixelSizeX = deltaX / (double)nRasterXSize;
            double PixelSizeY = deltaY / (double)nRasterYSize;

            if (EQUAL(IsCorner.c_str(), "Yes"))
            {
                adfGeoTransform[0] = CPLAtof(sMinX.c_str());
                adfGeoTransform[3] = CPLAtof(sMaxY.c_str());
            }
            else
            {
                adfGeoTransform[0] = CPLAtof(sMinX.c_str()) - PixelSizeX / 2.0;
                adfGeoTransform[3] = CPLAtof(sMaxY.c_str()) + PixelSizeY / 2.0;
            }

            adfGeoTransform[1] = PixelSizeX;
            adfGeoTransform[2] = 0.0;
            adfGeoTransform[4] = 0.0;
            adfGeoTransform[5] = -PixelSizeY;
        }
    }
}

/************************************************************************/
/*                         WriteGeoReference()                          */
/*                                                                      */
/*      Try to write a geo-reference file for the dataset to create     */
/************************************************************************/

void ILWISDataset::WriteGeoReference()
{
    // Check whether we should write out a georeference file.
    // Dataset must be north up.
    if (adfGeoTransform[0] != 0.0 || adfGeoTransform[1] != 1.0 ||
        adfGeoTransform[2] != 0.0 || adfGeoTransform[3] != 0.0 ||
        adfGeoTransform[4] != 0.0 || fabs(adfGeoTransform[5]) != 1.0)
    {
        SetGeoTransform(adfGeoTransform);  // is this needed?
        if (adfGeoTransform[2] == 0.0 && adfGeoTransform[4] == 0.0)
        {
            int nXSize = GetRasterXSize();
            int nYSize = GetRasterYSize();
            double dLLLat = (adfGeoTransform[3] + nYSize * adfGeoTransform[5]);
            double dLLLong = (adfGeoTransform[0]);
            double dURLat = (adfGeoTransform[3]);
            double dURLong = (adfGeoTransform[0] + nXSize * adfGeoTransform[1]);

            std::string grFileName = CPLResetExtensionSafe(osFileName, "grf");
            WriteElement("Ilwis", "Type", grFileName, "GeoRef");
            WriteElement("GeoRef", "lines", grFileName, nYSize);
            WriteElement("GeoRef", "columns", grFileName, nXSize);
            WriteElement("GeoRef", "Type", grFileName, "GeoRefCorners");
            WriteElement("GeoRefCorners", "CornersOfCorners", grFileName,
                         "Yes");
            WriteElement("GeoRefCorners", "MinX", grFileName, dLLLong);
            WriteElement("GeoRefCorners", "MinY", grFileName, dLLLat);
            WriteElement("GeoRefCorners", "MaxX", grFileName, dURLong);
            WriteElement("GeoRefCorners", "MaxY", grFileName, dURLat);

            // Re-write the GeoRef property to raster ODF
            // Form band file name
            std::string sBaseName = std::string(CPLGetBasenameSafe(osFileName));
            std::string sPath = std::string(CPLGetPathSafe(osFileName));
            if (nBands == 1)
            {
                WriteElement("Map", "GeoRef", osFileName, sBaseName + ".grf");
            }
            else
            {
                for (int iBand = 0; iBand < nBands; iBand++)
                {
                    if (iBand == 0)
                        WriteElement("MapList", "GeoRef", osFileName,
                                     sBaseName + ".grf");
                    char szName[100];
                    snprintf(szName, sizeof(szName), "%s_band_%d",
                             sBaseName.c_str(), iBand + 1);
                    const std::string osODFName =
                        CPLFormFilenameSafe(sPath.c_str(), szName, "mpr");
                    WriteElement("Map", "GeoRef", osODFName,
                                 sBaseName + ".grf");
                }
            }
        }
    }
}

/************************************************************************/
/*                          GetSpatialRef()                             */
/************************************************************************/

const OGRSpatialReference *ILWISDataset::GetSpatialRef() const

{
    return m_oSRS.IsEmpty() ? nullptr : &m_oSRS;
}

/************************************************************************/
/*                           SetSpatialRef()                            */
/************************************************************************/

CPLErr ILWISDataset::SetSpatialRef(const OGRSpatialReference *poSRS)

{
    m_oSRS.Clear();
    if (poSRS)
        m_oSRS = *poSRS;
    bGeoDirty = TRUE;

    return CE_None;
}

/************************************************************************/
/*                          GetGeoTransform()                           */
/************************************************************************/

CPLErr ILWISDataset::GetGeoTransform(double *padfTransform)

{
    memcpy(padfTransform, adfGeoTransform, sizeof(double) * 6);
    return CE_None;
}

/************************************************************************/
/*                          SetGeoTransform()                           */
/************************************************************************/

CPLErr ILWISDataset::SetGeoTransform(double *padfTransform)

{
    memmove(adfGeoTransform, padfTransform, sizeof(double) * 6);

    if (adfGeoTransform[2] == 0.0 && adfGeoTransform[4] == 0.0)
        bGeoDirty = TRUE;

    return CE_None;
}

static bool CheckASCII(unsigned char *buf, int size)
{
    for (int i = 0; i < size; ++i)
    {
        if (!isascii(buf[i]))
            return false;
    }

    return true;
}

/************************************************************************/
/*                       Open()                                         */
/************************************************************************/

GDALDataset *ILWISDataset::Open(GDALOpenInfo *poOpenInfo)

{
    /* -------------------------------------------------------------------- */
    /*      Does this look like an ILWIS file                               */
    /* -------------------------------------------------------------------- */
    if (poOpenInfo->nHeaderBytes < 1)
        return nullptr;

    {
        const std::string &sExt = poOpenInfo->osExtension;
        if (!EQUAL(sExt.c_str(), "mpr") && !EQUAL(sExt.c_str(), "mpl"))
            return nullptr;
    }

    if (!CheckASCII(poOpenInfo->pabyHeader, poOpenInfo->nHeaderBytes))
        return nullptr;

    std::string ilwistype =
        ReadElement("Ilwis", "Type", poOpenInfo->pszFilename);
    if (ilwistype.empty())
        return nullptr;

    const char *pszFileType = "";     // map or map list
    CPL_IGNORE_RET_VAL(pszFileType);  // Make CSA happy
    int iBandCount;
    std::string mapsize;
    const std::string maptype =
        ReadElement("BaseMap", "Type", poOpenInfo->pszFilename);
    // const std::string sBaseName =
    // std::string(CPLGetBasenameSafe(poOpenInfo->pszFilename).c_str() );
    const std::string sPath =
        std::string(CPLGetPathSafe(poOpenInfo->pszFilename));

    // Verify whether it is a map list or a map
    if (EQUAL(ilwistype.c_str(), "MapList"))
    {
        pszFileType = "MapList";
        std::string sMaps =
            ReadElement("MapList", "Maps", poOpenInfo->pszFilename);
        iBandCount = atoi(sMaps.c_str());
        mapsize = ReadElement("MapList", "Size", poOpenInfo->pszFilename);
        for (int iBand = 0; iBand < iBandCount; ++iBand)
        {
            // Form the band file name.
            char cBandName[45];
            snprintf(cBandName, sizeof(cBandName), "Map%d", iBand);
            std::string sBandName = ReadElement(
                "MapList", std::string(cBandName), poOpenInfo->pszFilename);
            const std::string osBandBaseName =
                CPLGetBasenameSafe(sBandName.c_str());
            const std::string osBandPath = CPLGetPathSafe(sBandName.c_str());
            if (osBandPath.empty())
            {
                sBandName = CPLFormFilenameSafe(sPath.c_str(),
                                                osBandBaseName.c_str(), "mpr");
            }
            // Verify the file extension, it must be an ILWIS raw data file
            // with extension .mp#, otherwise, unsupported
            // This drive only supports a map list which stores a set
            // of ILWIS raster maps,
            std::string sMapStoreName =
                ReadElement("MapStore", "Data", sBandName);
            if (!STARTS_WITH_CI(
                    CPLGetExtensionSafe(sMapStoreName.c_str()).c_str(), "mp#"))
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Unsupported ILWIS data file. \n"
                         "can't treat as raster.\n");
                return nullptr;
            }
        }
    }
    else if (EQUAL(ilwistype.c_str(), "BaseMap") &&
             EQUAL(maptype.c_str(), "Map"))
    {
        pszFileType = "Map";
        iBandCount = 1;
        mapsize = ReadElement("Map", "Size", poOpenInfo->pszFilename);
        // std::string sMapType = ReadElement("Map", "Type",
        // poOpenInfo->pszFilename);
        ilwisStoreType stStoreType;
        if (GetStoreType(std::string(poOpenInfo->pszFilename), stStoreType) !=
            CE_None)
        {
            // CPLError( CE_Failure, CPLE_AppDefined,
            //           "Unsupported ILWIS data file. \n"
            //           "can't treat as raster.\n" );
            return nullptr;
        }
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Unsupported ILWIS data file. \n"
                 "can't treat as raster.\n");
        return nullptr;
    }

    /* -------------------------------------------------------------------- */
    /*      Create a corresponding GDALDataset.                             */
    /* -------------------------------------------------------------------- */
    ILWISDataset *poDS = new ILWISDataset();

    /* -------------------------------------------------------------------- */
    /*      Capture raster size from ILWIS file (.mpr).                     */
    /* -------------------------------------------------------------------- */
    int Row = 0;
    int Col = 0;
    if (GetRowCol(mapsize, Row, Col) != CE_None)
    {
        delete poDS;
        return nullptr;
    }
    if (!GDALCheckDatasetDimensions(Col, Row))
    {
        delete poDS;
        return nullptr;
    }
    poDS->nRasterXSize = Col;
    poDS->nRasterYSize = Row;
    poDS->osFileName = poOpenInfo->pszFilename;
    poDS->pszFileType = pszFileType;
    /* -------------------------------------------------------------------- */
    /*      Create band information objects.                                */
    /* -------------------------------------------------------------------- */
    // poDS->pszFileName = new char[strlen(poOpenInfo->pszFilename) + 1];
    poDS->nBands = iBandCount;
    for (int iBand = 0; iBand < poDS->nBands; iBand++)
    {
        poDS->SetBand(iBand + 1,
                      new ILWISRasterBand(poDS, iBand + 1, std::string()));
    }

    /* -------------------------------------------------------------------- */
    /*      Collect the geotransform coefficients                           */
    /* -------------------------------------------------------------------- */
    std::string pszGeoRef;
    poDS->CollectTransformCoef(pszGeoRef);

    /* -------------------------------------------------------------------- */
    /*      Translation from ILWIS coordinate system definition             */
    /* -------------------------------------------------------------------- */
    if (!pszGeoRef.empty() && !EQUAL(pszGeoRef.c_str(), "none"))
    {

        // Fetch coordinate system
        std::string csy = ReadElement("GeoRef", "CoordSystem", pszGeoRef);
        std::string pszProj;

        if (!csy.empty() && !EQUAL(csy.c_str(), "unknown.csy"))
        {

            // Form the coordinate system file name
            if (!(STARTS_WITH_CI(csy.c_str(), "latlon.csy")) &&
                !(STARTS_WITH_CI(csy.c_str(), "LatlonWGS84.csy")))
            {
                const std::string osBaseName = CPLGetBasenameSafe(csy.c_str());
                const std::string osPath = CPLGetPathSafe(poDS->osFileName);
                csy = CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(),
                                          "csy");
                pszProj = ReadElement("CoordSystem", "Type", csy);
                if (pszProj.empty())  // default to projection
                    pszProj = "Projection";
            }
            else
            {
                pszProj = "LatLon";
            }

            if ((STARTS_WITH_CI(pszProj.c_str(), "LatLon")) ||
                (STARTS_WITH_CI(pszProj.c_str(), "Projection")))
                poDS->ReadProjection(csy);
        }
    }

    /* -------------------------------------------------------------------- */
    /*      Initialize any PAM information.                                 */
    /* -------------------------------------------------------------------- */
    poDS->SetDescription(poOpenInfo->pszFilename);
    poDS->TryLoadXML();

    /* -------------------------------------------------------------------- */
    /*      Check for external overviews.                                   */
    /* -------------------------------------------------------------------- */
    poDS->oOvManager.Initialize(poDS, poOpenInfo->pszFilename,
                                poOpenInfo->GetSiblingFiles());

    return poDS;
}

/************************************************************************/
/*                             FlushCache()                             */
/************************************************************************/

CPLErr ILWISDataset::FlushCache(bool bAtClosing)

{
    CPLErr eErr = GDALDataset::FlushCache(bAtClosing);

    if (bGeoDirty == TRUE)
    {
        WriteGeoReference();
        if (WriteProjection() != CE_None)
            eErr = CE_Failure;
        bGeoDirty = FALSE;
    }
    return eErr;
}

/************************************************************************/
/*                               Create()                               */
/*                                                                      */
/*      Create a new ILWIS file.                                         */
/************************************************************************/

GDALDataset *ILWISDataset::Create(const char *pszFilename, int nXSize,
                                  int nYSize, int nBandsIn, GDALDataType eType,
                                  CPL_UNUSED char **papszParamList)
{
    /* -------------------------------------------------------------------- */
    /*      Verify input options.                                           */
    /* -------------------------------------------------------------------- */
    if (eType != GDT_Byte && eType != GDT_Int16 && eType != GDT_Int32 &&
        eType != GDT_Float32 && eType != GDT_Float64 && eType != GDT_UInt16 &&
        eType != GDT_UInt32)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Attempt to create ILWIS dataset with an illegal\n"
                 "data type (%s).\n",
                 GDALGetDataTypeName(eType));

        return nullptr;
    }

    /* -------------------------------------------------------------------- */
    /*      Translate the data type.                                        */
    /*      Determine store type of ILWIS raster                            */
    /* -------------------------------------------------------------------- */
    std::string sDomain = "value.dom";
    double stepsize = 1;
    std::string sStoreType = GDALType2ILWIS(eType);
    if (EQUAL(sStoreType.c_str(), ""))
        return nullptr;
    else if (EQUAL(sStoreType.c_str(), "Real") ||
             EQUAL(sStoreType.c_str(), "float"))
        stepsize = 0;

    const std::string osBaseName = std::string(CPLGetBasenameSafe(pszFilename));
    const std::string osPath = std::string(CPLGetPathSafe(pszFilename));

    /* -------------------------------------------------------------------- */
    /*      Write out object definition file for each band                  */
    /* -------------------------------------------------------------------- */
    std::string osODFName;
    std::string osDataBaseName;
    std::string osFilename;

    char strsize[45];
    snprintf(strsize, sizeof(strsize), "%d %d", nYSize, nXSize);

    // Form map/maplist name.
    std::unique_ptr<IniFile> globalFile;
    if (nBandsIn == 1)
    {
        osODFName =
            CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "mpr");
        osDataBaseName = osBaseName;
        osFilename =
            CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "mpr");
    }
    else
    {
        osFilename =
            CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "mpl");
        auto iniFile = new IniFile(std::string(osFilename));
        iniFile->SetKeyValue("Ilwis", "Type", "MapList");
        iniFile->SetKeyValue("MapList", "GeoRef", "none.grf");
        iniFile->SetKeyValue("MapList", "Size", std::string(strsize));
        iniFile->SetKeyValue("MapList", "Maps", CPLSPrintf("%d", nBandsIn));
        globalFile.reset(iniFile);
    }

    for (int iBand = 0; iBand < nBandsIn; iBand++)
    {
        if (nBandsIn > 1)
        {
            char szBandName[100];
            snprintf(szBandName, sizeof(szBandName), "%s_band_%d",
                     osBaseName.c_str(), iBand + 1);
            osODFName = std::string(szBandName) + ".mpr";
            osDataBaseName = std::string(szBandName);
            snprintf(szBandName, sizeof(szBandName), "Map%d", iBand);
            globalFile->SetKeyValue("MapList", std::string(szBandName),
                                    osODFName);
            osODFName = CPLFormFilenameSafe(osPath.c_str(),
                                            osDataBaseName.c_str(), "mpr");
        }
        /* --------------------------------------------------------------------
         */
        /*      Write data definition per band (.mpr) */
        /* --------------------------------------------------------------------
         */

        IniFile ODFFile(osODFName);

        ODFFile.SetKeyValue("Ilwis", "Type", "BaseMap");
        ODFFile.SetKeyValue("BaseMap", "Type", "Map");
        ODFFile.SetKeyValue("Map", "Type", "MapStore");

        ODFFile.SetKeyValue("BaseMap", "Domain", sDomain);
        std::string osDataName = osDataBaseName + ".mp#";
        ODFFile.SetKeyValue("MapStore", "Data", osDataName.c_str());
        ODFFile.SetKeyValue("MapStore", "Structure", "Line");
        // sStoreType is used by ILWISRasterBand constructor to determine
        // eDataType
        ODFFile.SetKeyValue("MapStore", "Type", sStoreType);

        // For now write-out a "Range" that is as broad as possible.
        // If later a better range is found (by inspecting metadata in the
        // source dataset), the "Range" will be overwritten by a better version.
        double adfMinMax[2] = {-9999999.9, 9999999.9};
        char strdouble[45];
        CPLsnprintf(strdouble, sizeof(strdouble), "%.3f:%.3f:%3f:offset=0",
                    adfMinMax[0], adfMinMax[1], stepsize);
        std::string range(strdouble);
        ODFFile.SetKeyValue("BaseMap", "Range", range);

        ODFFile.SetKeyValue("Map", "GeoRef", "none.grf");
        ODFFile.SetKeyValue("Map", "Size", std::string(strsize));

        /* --------------------------------------------------------------------
         */
        /*      Try to create the data file. */
        /* --------------------------------------------------------------------
         */
        osDataName = CPLResetExtensionSafe(osODFName.c_str(), "mp#");

        VSILFILE *fp = VSIFOpenL(osDataName.c_str(), "wb");

        if (fp == nullptr)
        {
            CPLError(CE_Failure, CPLE_OpenFailed, "Unable to create file %s.\n",
                     osDataName.c_str());
            return nullptr;
        }
        VSIFCloseL(fp);
    }

    globalFile.reset();

    ILWISDataset *poDS = new ILWISDataset();
    poDS->nRasterXSize = nXSize;
    poDS->nRasterYSize = nYSize;
    poDS->nBands = nBandsIn;
    poDS->eAccess = GA_Update;
    poDS->bNewDataset = TRUE;
    poDS->SetDescription(pszFilename);
    poDS->osFileName = osFilename;
    poDS->pszIlwFileName = osFilename;
    CPL_IGNORE_RET_VAL(osFilename);
    if (nBandsIn == 1)
        poDS->pszFileType = "Map";
    else
        poDS->pszFileType = "MapList";

    /* -------------------------------------------------------------------- */
    /*      Create band information objects.                                */
    /* -------------------------------------------------------------------- */

    for (int iBand = 1; iBand <= poDS->nBands; iBand++)
    {
        std::string sBandName;
        if (poDS->nBands > 1)
        {
            sBandName = CPLSPrintf("%s_band_%d.mpr", osBaseName.c_str(), iBand);
        }
        poDS->SetBand(iBand, new ILWISRasterBand(poDS, iBand, sBandName));
    }

    return poDS;
}

/************************************************************************/
/*                             CreateCopy()                             */
/************************************************************************/

GDALDataset *ILWISDataset::CreateCopy(const char *pszFilename,
                                      GDALDataset *poSrcDS, int /* bStrict */,
                                      char **papszOptions,
                                      GDALProgressFunc pfnProgress,
                                      void *pProgressData)

{
    if (!pfnProgress(0.0, nullptr, pProgressData))
        return nullptr;

    const int nXSize = poSrcDS->GetRasterXSize();
    const int nYSize = poSrcDS->GetRasterYSize();
    const int nBands = poSrcDS->GetRasterCount();

    /* -------------------------------------------------------------------- */
    /*      Create the basic dataset.                                       */
    /* -------------------------------------------------------------------- */
    GDALDataType eType = GDT_Unknown;
    for (int iBand = 0; iBand < nBands; iBand++)
    {
        GDALRasterBand *poBand = poSrcDS->GetRasterBand(iBand + 1);
        if (iBand == 0)
            eType = poBand->GetRasterDataType();
        else
            eType = GDALDataTypeUnion(eType, poBand->GetRasterDataType());
    }

    ILWISDataset *poDS = (ILWISDataset *)Create(
        pszFilename, poSrcDS->GetRasterXSize(), poSrcDS->GetRasterYSize(),
        nBands, eType, papszOptions);

    if (poDS == nullptr)
        return nullptr;
    const std::string osBaseName = std::string(CPLGetBasenameSafe(pszFilename));
    const std::string osPath = std::string(CPLGetPathSafe(pszFilename));

    /* -------------------------------------------------------------------- */
    /*  Copy and geo-transform and projection information.                  */
    /* -------------------------------------------------------------------- */
    double adfGeoTransform[6];
    std::string georef = "none.grf";

    // Check whether we should create georeference file.
    // Source dataset must be north up.
    if (poSrcDS->GetGeoTransform(adfGeoTransform) == CE_None &&
        (adfGeoTransform[0] != 0.0 || adfGeoTransform[1] != 1.0 ||
         adfGeoTransform[2] != 0.0 || adfGeoTransform[3] != 0.0 ||
         adfGeoTransform[4] != 0.0 || fabs(adfGeoTransform[5]) != 1.0))
    {
        poDS->SetGeoTransform(adfGeoTransform);
        if (adfGeoTransform[2] == 0.0 && adfGeoTransform[4] == 0.0)
            georef = osBaseName + ".grf";
    }

    const OGRSpatialReference *poSrcSRS = poSrcDS->GetSpatialRef();
    if (poSrcSRS)
        poDS->SetSpatialRef(poSrcSRS);

    /* -------------------------------------------------------------------- */
    /*      Create the output raster files for each band                    */
    /* -------------------------------------------------------------------- */

    for (int iBand = 0; iBand < nBands; iBand++)
    {
        VSILFILE *fpData = nullptr;

        GDALRasterBand *poBand = poSrcDS->GetRasterBand(iBand + 1);
        ILWISRasterBand *desBand =
            (ILWISRasterBand *)poDS->GetRasterBand(iBand + 1);

        /* --------------------------------------------------------------------
         */
        /*      Translate the data type. */
        /* --------------------------------------------------------------------
         */
        int nLineSize = nXSize * GDALGetDataTypeSize(eType) / 8;

        // Determine the nodata value
        int bHasNoDataValue;
        double dNoDataValue = poBand->GetNoDataValue(&bHasNoDataValue);

        // Determine store type of ILWIS raster
        const std::string sStoreType = GDALType2ILWIS(eType);
        double stepsize = 1;
        if (EQUAL(sStoreType.c_str(), ""))
            return nullptr;
        else if (EQUAL(sStoreType.c_str(), "Real") ||
                 EQUAL(sStoreType.c_str(), "float"))
            stepsize = 0;

        // Form the image file name, create the object definition file.
        std::string osODFName;
        // std::string osDataBaseName;
        if (nBands == 1)
        {
            osODFName =
                CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "mpr");
            // osDataBaseName = osBaseName;
        }
        else
        {
            char szName[100];
            snprintf(szName, sizeof(szName), "%s_band_%d", osBaseName.c_str(),
                     iBand + 1);
            osODFName = CPLFormFilenameSafe(osPath.c_str(), szName, "mpr");
            // osDataBaseName = std::string(szName);
        }
        /* --------------------------------------------------------------------
         */
        /*      Write data definition file for each band (.mpr) */
        /* --------------------------------------------------------------------
         */

        double adfMinMax[2];
        int bGotMin, bGotMax;

        adfMinMax[0] = poBand->GetMinimum(&bGotMin);
        adfMinMax[1] = poBand->GetMaximum(&bGotMax);
        if (!(bGotMin && bGotMax))
            GDALComputeRasterMinMax((GDALRasterBandH)poBand, FALSE, adfMinMax);
        if ((!std::isnan(adfMinMax[0])) && std::isfinite(adfMinMax[0]) &&
            (!std::isnan(adfMinMax[1])) && std::isfinite(adfMinMax[1]))
        {
            // only write a range if we got a correct one from the source
            // dataset (otherwise ILWIS can't show the map properly)
            char strdouble[45];
            CPLsnprintf(strdouble, sizeof(strdouble), "%.3f:%.3f:%3f:offset=0",
                        adfMinMax[0], adfMinMax[1], stepsize);
            std::string range = std::string(strdouble);
            WriteElement("BaseMap", "Range", osODFName, range);
        }
        WriteElement("Map", "GeoRef", osODFName, georef);

        /* --------------------------------------------------------------------
         */
        /*      Loop over image, copy the image data. */
        /* --------------------------------------------------------------------
         */
        // For file name for raw data, and create binary files.
        // std::string pszDataFileName = CPLResetExtensionSafe(osODFName.c_str(),
        // "mp#" );

        fpData = desBand->fpRaw;
        if (fpData == nullptr)
        {
            CPLError(CE_Failure, CPLE_OpenFailed,
                     "Attempt to create file `%s' failed.\n", pszFilename);
            return nullptr;
        }

        GByte *pData = (GByte *)CPLMalloc(nLineSize);

        CPLErr eErr = CE_None;
        for (int iLine = 0; iLine < nYSize && eErr == CE_None; iLine++)
        {
            eErr = poBand->RasterIO(GF_Read, 0, iLine, nXSize, 1, pData, nXSize,
                                    1, eType, 0, 0, nullptr);

            if (eErr == CE_None)
            {
                if (bHasNoDataValue)
                {
                    // pData may have entries with value = dNoDataValue
                    // ILWIS uses a fixed value for nodata, depending on the
                    // data-type Therefore translate the NoDataValue from each
                    // band to ILWIS
                    for (int iCol = 0; iCol < nXSize; iCol++)
                    {
                        if (EQUAL(sStoreType.c_str(), "Byte"))
                        {
                            if (((GByte *)pData)[iCol] == dNoDataValue)
                                ((GByte *)pData)[iCol] = 0;
                        }
                        else if (EQUAL(sStoreType.c_str(), "Int"))
                        {
                            if (((GInt16 *)pData)[iCol] == dNoDataValue)
                                ((GInt16 *)pData)[iCol] = shUNDEF;
                        }
                        else if (EQUAL(sStoreType.c_str(), "Long"))
                        {
                            if (((GInt32 *)pData)[iCol] == dNoDataValue)
                                ((GInt32 *)pData)[iCol] = iUNDEF;
                        }
                        else if (EQUAL(sStoreType.c_str(), "float"))
                        {
                            if ((((float *)pData)[iCol] == dNoDataValue) ||
                                (std::isnan(((float *)pData)[iCol])))
                                ((float *)pData)[iCol] = flUNDEF;
                        }
                        else if (EQUAL(sStoreType.c_str(), "Real"))
                        {
                            if ((((double *)pData)[iCol] == dNoDataValue) ||
                                (std::isnan(((double *)pData)[iCol])))
                                ((double *)pData)[iCol] = rUNDEF;
                        }
                    }
                }
                int iSize = static_cast<int>(
                    VSIFWriteL(pData, 1, nLineSize, desBand->fpRaw));
                if (iSize < 1)
                {
                    CPLFree(pData);
                    // CPLFree( pData32 );
                    CPLError(CE_Failure, CPLE_FileIO,
                             "Write of file failed with fwrite error.");
                    return nullptr;
                }
            }
            if (!pfnProgress(iLine / (nYSize * nBands), nullptr, pProgressData))
                return nullptr;
        }
        VSIFFlushL(fpData);
        CPLFree(pData);
    }

    poDS->FlushCache(false);

    if (!pfnProgress(1.0, nullptr, pProgressData))
    {
        CPLError(CE_Failure, CPLE_UserInterrupt, "User terminated");
        delete poDS;

        GDALDriver *poILWISDriver = (GDALDriver *)GDALGetDriverByName("ILWIS");
        poILWISDriver->Delete(pszFilename);
        return nullptr;
    }

    poDS->CloneInfo(poSrcDS, GCIF_PAM_DEFAULT);

    return poDS;
}

/************************************************************************/
/*                       ILWISRasterBand()                              */
/************************************************************************/

ILWISRasterBand::ILWISRasterBand(ILWISDataset *poDSIn, int nBandIn,
                                 const std::string &sBandNameIn)
    : fpRaw(nullptr), nSizePerPixel(0)
{
    poDS = poDSIn;
    nBand = nBandIn;

    std::string sBandName;
    if (EQUAL(poDSIn->pszFileType.c_str(), "Map"))
    {
        sBandName = std::string(poDSIn->osFileName);
    }
    else  // Map list.
    {
        // Form the band name.
        char cBandName[45];
        snprintf(cBandName, sizeof(cBandName), "Map%d", nBand - 1);
        if (sBandNameIn.empty())
        {
            sBandName = ReadElement("MapList", std::string(cBandName),
                                    std::string(poDSIn->osFileName));
        }
        else
        {
            sBandName = sBandNameIn;
        }
        std::string sInputPath =
            std::string(CPLGetPathSafe(poDSIn->osFileName));
        std::string sBandPath = std::string(CPLGetPathSafe(sBandName.c_str()));
        std::string sBandBaseName =
            std::string(CPLGetBasenameSafe(sBandName.c_str()));
        if (sBandPath.empty())
            sBandName = CPLFormFilenameSafe(sInputPath.c_str(),
                                            sBandBaseName.c_str(), "mpr");
        else
            sBandName = CPLFormFilenameSafe(sBandPath.c_str(),
                                            sBandBaseName.c_str(), "mpr");
    }

    if (poDSIn->bNewDataset)
    {
        // Called from Create():
        // eDataType is defaulted to GDT_Byte by GDALRasterBand::GDALRasterBand
        // Here we set it to match the value of sStoreType (that was set in
        // ILWISDataset::Create) Unfortunately we can't take advantage of the
        // ILWIS "ValueRange" object that would use the most compact storeType
        // possible, without going through all values.
        GetStoreType(sBandName, psInfo.stStoreType);
        eDataType = ILWIS2GDALType(psInfo.stStoreType);
    }
    else  // Called from Open(), thus convert ILWIS type from ODF to eDataType
    {
        GetILWISInfo(sBandName);
    }

    nBlockXSize = poDS->GetRasterXSize();
    nBlockYSize = 1;
    switch (psInfo.stStoreType)
    {
        case stByte:
            nSizePerPixel = GDALGetDataTypeSizeBytes(GDT_Byte);
            break;
        case stInt:
            nSizePerPixel = GDALGetDataTypeSizeBytes(GDT_Int16);
            break;
        case stLong:
            nSizePerPixel = GDALGetDataTypeSizeBytes(GDT_Int32);
            break;
        case stFloat:
            nSizePerPixel = GDALGetDataTypeSizeBytes(GDT_Float32);
            break;
        case stReal:
            nSizePerPixel = GDALGetDataTypeSizeBytes(GDT_Float64);
            break;
    }
    ILWISOpen(sBandName);
}

/************************************************************************/
/*                          ~ILWISRasterBand()                          */
/************************************************************************/

ILWISRasterBand::~ILWISRasterBand()

{
    if (fpRaw != nullptr)
    {
        VSIFCloseL(fpRaw);
        fpRaw = nullptr;
    }
}

/************************************************************************/
/*                             ILWISOpen()                             */
/************************************************************************/
void ILWISRasterBand::ILWISOpen(const std::string &pszFileName)
{
    ILWISDataset *dataset = (ILWISDataset *)poDS;
    std::string pszDataFile =
        std::string(CPLResetExtensionSafe(pszFileName.c_str(), "mp#"));

    fpRaw = VSIFOpenL(pszDataFile.c_str(),
                      (dataset->eAccess == GA_Update) ? "rb+" : "rb");
}

/************************************************************************/
/*                 ReadValueDomainProperties()                          */
/************************************************************************/
// Helper function for GetILWISInfo, to avoid code-duplication
// Unfortunately with side-effect (changes members psInfo and eDataType)
void ILWISRasterBand::ReadValueDomainProperties(const std::string &pszFileName)
{
    std::string rangeString =
        ReadElement("BaseMap", "Range", pszFileName.c_str());
    psInfo.vr = ValueRange(rangeString);
    double rStep = psInfo.vr.get_rStep();
    if (rStep != 0)
    {
        psInfo.bUseValueRange = true;  // use ILWIS ValueRange object to convert
                                       // from "raw" to "value"
        double rMin = psInfo.vr.get_rLo();
        double rMax = psInfo.vr.get_rHi();
        if (rStep >= INT_MIN && rStep <= INT_MAX &&
            rStep - (int)rStep == 0.0)  // Integer values
        {
            if (rMin >= 0 && rMax <= UCHAR_MAX)
                eDataType = GDT_Byte;
            else if (rMin >= SHRT_MIN && rMax <= SHRT_MAX)
                eDataType = GDT_Int16;
            else if (rMin >= 0 && rMax <= USHRT_MAX)
                eDataType = GDT_UInt16;
            else if (rMin >= INT_MIN && rMax <= INT_MAX)
                eDataType = GDT_Int32;
            else if (rMin >= 0 && rMax <= UINT_MAX)
                eDataType = GDT_UInt32;
            else
                eDataType = GDT_Float64;
        }
        else  // Floating point values
        {
            if ((rMin >= std::numeric_limits<float>::lowest()) &&
                (rMax <= std::numeric_limits<float>::max()) &&
                (fabs(rStep) >= FLT_EPSILON))  // is "float" good enough?
                eDataType = GDT_Float32;
            else
                eDataType = GDT_Float64;
        }
    }
    else
    {
        if (psInfo.stStoreType == stFloat)  // is "float" good enough?
            eDataType = GDT_Float32;
        else
            eDataType = GDT_Float64;
    }
}

/************************************************************************/
/*                       GetILWISInfo()                                 */
/************************************************************************/
// Calculates members psInfo and eDataType
CPLErr ILWISRasterBand::GetILWISInfo(const std::string &pszFileName)
{
    // Fill the psInfo struct with defaults.
    // Get the store type from the ODF
    if (GetStoreType(pszFileName, psInfo.stStoreType) != CE_None)
    {
        return CE_Failure;
    }
    psInfo.bUseValueRange = false;
    psInfo.stDomain = "";

    // ILWIS has several (currently 22) predefined "system-domains", that
    // influence the data-type The user can also create domains. The possible
    // types for these are "class", "identifier", "bool" and "value" The last
    // one has Type=DomainValue Here we make an effort to determine the
    // most-compact gdal-type (eDataType) that is suitable for the data in the
    // current ILWIS band. First check against all predefined domain names (the
    // "system-domains") If no match is found, read the domain ODF from disk,
    // and get its type We have hardcoded the system domains here, because ILWIS
    // may not be installed, and even if it is, we don't know where (thus it is
    // useless to attempt to read a system-domain-file).

    const std::string domName =
        ReadElement("BaseMap", "Domain", pszFileName.c_str());
    const std::string osBaseName =
        std::string(CPLGetBasenameSafe(domName.c_str()));
    const std::string osPath = std::string(CPLGetPathSafe(pszFileName.c_str()));

    // Check against all "system-domains"
    if (EQUAL(osBaseName.c_str(),
              "value")  // is it a system domain with Type=DomainValue?
        || EQUAL(osBaseName.c_str(), "count") ||
        EQUAL(osBaseName.c_str(), "distance") ||
        EQUAL(osBaseName.c_str(), "min1to1") ||
        EQUAL(osBaseName.c_str(), "nilto1") ||
        EQUAL(osBaseName.c_str(), "noaa") ||
        EQUAL(osBaseName.c_str(), "perc") || EQUAL(osBaseName.c_str(), "radar"))
    {
        ReadValueDomainProperties(pszFileName);
    }
    else if (EQUAL(osBaseName.c_str(), "bool") ||
             EQUAL(osBaseName.c_str(), "byte") ||
             EQUAL(osBaseName.c_str(), "bit") ||
             EQUAL(osBaseName.c_str(), "image") ||
             EQUAL(osBaseName.c_str(), "colorcmp") ||
             EQUAL(osBaseName.c_str(), "flowdirection") ||
             EQUAL(osBaseName.c_str(), "hortonratio") ||
             EQUAL(osBaseName.c_str(), "yesno"))
    {
        eDataType = GDT_Byte;
        if (EQUAL(osBaseName.c_str(), "image") ||
            EQUAL(osBaseName.c_str(), "colorcmp"))
            psInfo.stDomain = osBaseName;
    }
    else if (EQUAL(osBaseName.c_str(), "color") ||
             EQUAL(osBaseName.c_str(), "none") ||
             EQUAL(osBaseName.c_str(), "coordbuf") ||
             EQUAL(osBaseName.c_str(), "binary") ||
             EQUAL(osBaseName.c_str(), "string"))
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Unsupported ILWIS domain type.");
        return CE_Failure;
    }
    else
    {
        // No match found. Assume it is a self-created domain. Read its type and
        // decide the GDAL type.
        std::string osDomainFileName =
            CPLFormFilenameSafe(osPath.c_str(), osBaseName.c_str(), "dom");
        std::string domType =
            ReadElement("Domain", "Type", osDomainFileName.c_str());
        if (EQUAL(domType.c_str(),
                  "domainvalue"))  // is it a self-created domain of
                                   // type=DomainValue?
        {
            ReadValueDomainProperties(pszFileName);
        }
        else if ((!EQUAL(domType.c_str(), "domainbit")) &&
                 (!EQUAL(domType.c_str(), "domainstring")) &&
                 (!EQUAL(domType.c_str(), "domaincolor")) &&
                 (!EQUAL(domType.c_str(), "domainbinary")) &&
                 (!EQUAL(domType.c_str(), "domaincoordBuf")) &&
                 (!EQUAL(domType.c_str(), "domaincoord")))
        {
            // Type is "DomainClass", "DomainBool" or "DomainIdentifier".
            // For now we set the GDAL storeType be the same as the ILWIS
            // storeType The user will have to convert the classes manually.
            eDataType = ILWIS2GDALType(psInfo.stStoreType);
        }
        else
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Unsupported ILWIS domain type.");
            return CE_Failure;
        }
    }

    return CE_None;
}

/** This driver defines a Block to be the entire raster; The method reads
    each line as a block. it reads the data into pImage.

    @param nBlockXOff This must be zero for this driver
    @param pImage Dump the data here

    @return A CPLErr code. This implementation returns a CE_Failure if the
    block offsets are non-zero, If successful, returns CE_None. */
/************************************************************************/
/*                             IReadBlock()                             */
/************************************************************************/
CPLErr ILWISRasterBand::IReadBlock(CPL_UNUSED int nBlockXOff, int nBlockYOff,
                                   void *pImage)
{
    // pImage is empty; this function fills it with data from fpRaw
    // (ILWIS data to foreign data)

    // If the x block offset is non-zero, something is wrong.
    CPLAssert(nBlockXOff == 0);

    int nBlockSize = nBlockXSize * nBlockYSize * nSizePerPixel;
    if (fpRaw == nullptr)
    {
        CPLError(CE_Failure, CPLE_OpenFailed,
                 "Failed to open ILWIS data file.");
        return CE_Failure;
    }

    /* -------------------------------------------------------------------- */
    /*      Handle the case of a strip in a writable file that doesn't      */
    /*      exist yet, but that we want to read.  Just set to zeros and     */
    /*      return.                                                         */
    /* -------------------------------------------------------------------- */
    ILWISDataset *poIDS = (ILWISDataset *)poDS;

#ifdef notdef
    if (poIDS->bNewDataset && (poIDS->eAccess == GA_Update))
    {
        FillWithNoData(pImage);
        return CE_None;
    }
#endif

    VSIFSeekL(fpRaw, static_cast<vsi_l_offset>(nBlockSize) * nBlockYOff,
              SEEK_SET);
    void *pData = (char *)CPLMalloc(nBlockSize);
    if (VSIFReadL(pData, 1, nBlockSize, fpRaw) < 1)
    {
        if (poIDS->bNewDataset)
        {
            FillWithNoData(pImage);
            return CE_None;
        }
        else
        {
            CPLFree(pData);
            CPLError(CE_Failure, CPLE_FileIO,
                     "Read of file failed with fread error.");
            return CE_Failure;
        }
    }

    // Copy the data from pData to pImage, and convert the store-type
    // The data in pData has store-type = psInfo.stStoreType
    // The data in pImage has store-type = eDataType
    // They may not match, because we have chosen the most compact store-type,
    // and for GDAL this may be different than for ILWIS.

    switch (psInfo.stStoreType)
    {
        case stByte:
            for (int iCol = 0; iCol < nBlockXSize; iCol++)
            {
                double rV = psInfo.bUseValueRange
                                ? psInfo.vr.rValue(((GByte *)pData)[iCol])
                                : ((GByte *)pData)[iCol];
                SetValue(pImage, iCol, rV);
            }
            break;
        case stInt:
            for (int iCol = 0; iCol < nBlockXSize; iCol++)
            {
                double rV = psInfo.bUseValueRange
                                ? psInfo.vr.rValue(((GInt16 *)pData)[iCol])
                                : ((GInt16 *)pData)[iCol];
                SetValue(pImage, iCol, rV);
            }
            break;
        case stLong:
            for (int iCol = 0; iCol < nBlockXSize; iCol++)
            {
                double rV = psInfo.bUseValueRange
                                ? psInfo.vr.rValue(((GInt32 *)pData)[iCol])
                                : ((GInt32 *)pData)[iCol];
                SetValue(pImage, iCol, rV);
            }
            break;
        case stFloat:
            for (int iCol = 0; iCol < nBlockXSize; iCol++)
                ((float *)pImage)[iCol] = ((float *)pData)[iCol];
            break;
        case stReal:
            for (int iCol = 0; iCol < nBlockXSize; iCol++)
                ((double *)pImage)[iCol] = ((double *)pData)[iCol];
            break;
        default:
            CPLAssert(false);
    }

    // Officially we should also translate "nodata" values, but at this point
    // we can't tell what's the "nodata" value of the destination (foreign)
    // dataset

    CPLFree(pData);

    return CE_None;
}

void ILWISRasterBand::SetValue(void *pImage, int i, double rV)
{
    switch (eDataType)
    {
        case GDT_Byte:
            ((GByte *)pImage)[i] = (GByte)rV;
            break;
        case GDT_UInt16:
            ((GUInt16 *)pImage)[i] = (GUInt16)rV;
            break;
        case GDT_Int16:
            ((GInt16 *)pImage)[i] = (GInt16)rV;
            break;
        case GDT_UInt32:
            ((GUInt32 *)pImage)[i] = (GUInt32)rV;
            break;
        case GDT_Int32:
            ((GInt32 *)pImage)[i] = (GInt32)rV;
            break;
        case GDT_Float32:
            ((float *)pImage)[i] = (float)rV;
            break;
        case GDT_Float64:
            ((double *)pImage)[i] = rV;
            break;
        default:
            CPLAssert(false);
    }
}

double ILWISRasterBand::GetValue(void *pImage, int i)
{
    double rV = 0;  // Does GDAL have an official nodata value?
    switch (eDataType)
    {
        case GDT_Byte:
            rV = ((GByte *)pImage)[i];
            break;
        case GDT_UInt16:
            rV = ((GUInt16 *)pImage)[i];
            break;
        case GDT_Int16:
            rV = ((GInt16 *)pImage)[i];
            break;
        case GDT_UInt32:
            rV = ((GUInt32 *)pImage)[i];
            break;
        case GDT_Int32:
            rV = ((GInt32 *)pImage)[i];
            break;
        case GDT_Float32:
            rV = ((float *)pImage)[i];
            break;
        case GDT_Float64:
            rV = ((double *)pImage)[i];
            break;
        default:
            CPLAssert(false);
    }
    return rV;
}

void ILWISRasterBand::FillWithNoData(void *pImage)
{
    if (psInfo.stStoreType == stByte)
        memset(pImage, 0, static_cast<size_t>(nBlockXSize) * nBlockYSize);
    else
    {
        switch (psInfo.stStoreType)
        {
            case stInt:
                ((GInt16 *)pImage)[0] = shUNDEF;
                break;
            case stLong:
                ((GInt32 *)pImage)[0] = iUNDEF;
                break;
            case stFloat:
                ((float *)pImage)[0] = flUNDEF;
                break;
            case stReal:
                ((double *)pImage)[0] = rUNDEF;
                break;
            default:  // should there be handling for stByte?
                break;
        }
        int iItemSize = GDALGetDataTypeSize(eDataType) / 8;
        for (int i = 1; i < nBlockXSize * nBlockYSize; ++i)
            memcpy(((char *)pImage) + iItemSize * i,
                   (char *)pImage + iItemSize * (i - 1), iItemSize);
    }
}

/************************************************************************/
/*                            IWriteBlock()                             */
/*                                                                      */
/************************************************************************/

CPLErr ILWISRasterBand::IWriteBlock(CPL_UNUSED int nBlockXOff, int nBlockYOff,
                                    void *pImage)
{
    // pImage has data; this function reads this data and stores it to fpRaw
    // (foreign data to ILWIS data)

    // Note that this function will not overwrite existing data in fpRaw, but
    // it will "fill gaps" marked by "nodata" values

    ILWISDataset *dataset = (ILWISDataset *)poDS;

    CPLAssert(dataset != nullptr && nBlockXOff == 0 && nBlockYOff >= 0 &&
              pImage != nullptr);

    int nXSize = dataset->GetRasterXSize();
    int nBlockSize = nBlockXSize * nBlockYSize * nSizePerPixel;
    void *pData = CPLMalloc(nBlockSize);

    VSIFSeekL(fpRaw, static_cast<vsi_l_offset>(nBlockSize) * nBlockYOff,
              SEEK_SET);

    bool fDataExists = (VSIFReadL(pData, 1, nBlockSize, fpRaw) >= 1);

    // Copy the data from pImage to pData, and convert the store-type
    // The data in pData has store-type = psInfo.stStoreType
    // The data in pImage has store-type = eDataType
    // They may not match, because we have chosen the most compact store-type,
    // and for GDAL this may be different than for ILWIS.

    if (fDataExists)
    {
        // fpRaw (thus pData) already has data
        // Take care to not overwrite it
        // thus only fill in gaps (nodata values)
        switch (psInfo.stStoreType)
        {
            case stByte:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    if (((GByte *)pData)[iCol] == 0)
                    {
                        double rV = GetValue(pImage, iCol);
                        ((GByte *)pData)[iCol] =
                            (GByte)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                          : rV);
                    }
                break;
            case stInt:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    if (((GInt16 *)pData)[iCol] == shUNDEF)
                    {
                        double rV = GetValue(pImage, iCol);
                        ((GInt16 *)pData)[iCol] =
                            (GInt16)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                           : rV);
                    }
                break;
            case stLong:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    if (((GInt32 *)pData)[iCol] == iUNDEF)
                    {
                        double rV = GetValue(pImage, iCol);
                        ((GInt32 *)pData)[iCol] =
                            (GInt32)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                           : rV);
                    }
                break;
            case stFloat:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    if (((float *)pData)[iCol] == flUNDEF)
                        ((float *)pData)[iCol] = ((float *)pImage)[iCol];
                break;
            case stReal:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    if (((double *)pData)[iCol] == rUNDEF)
                        ((double *)pData)[iCol] = ((double *)pImage)[iCol];
                break;
        }
    }
    else
    {
        // fpRaw (thus pData) is still empty, just write the data
        switch (psInfo.stStoreType)
        {
            case stByte:
                for (int iCol = 0; iCol < nXSize; iCol++)
                {
                    double rV = GetValue(pImage, iCol);
                    ((GByte *)pData)[iCol] =
                        (GByte)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                      : rV);
                }
                break;
            case stInt:
                for (int iCol = 0; iCol < nXSize; iCol++)
                {
                    double rV = GetValue(pImage, iCol);
                    ((GInt16 *)pData)[iCol] =
                        (GInt16)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                       : rV);
                }
                break;
            case stLong:
                for (int iCol = 0; iCol < nXSize; iCol++)
                {
                    double rV = GetValue(pImage, iCol);
                    ((GInt32 *)pData)[iCol] =
                        (GInt32)(psInfo.bUseValueRange ? psInfo.vr.iRaw(rV)
                                                       : rV);
                }
                break;
            case stFloat:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    ((float *)pData)[iCol] = ((float *)pImage)[iCol];
                break;
            case stReal:
                for (int iCol = 0; iCol < nXSize; iCol++)
                    ((double *)pData)[iCol] = ((double *)pImage)[iCol];
                break;
        }
    }

    // Officially we should also translate "nodata" values, but at this point
    // we can't tell what's the "nodata" value of the source (foreign) dataset

    VSIFSeekL(fpRaw, static_cast<vsi_l_offset>(nBlockSize) * nBlockYOff,
              SEEK_SET);

    if (VSIFWriteL(pData, 1, nBlockSize, fpRaw) < 1)
    {
        CPLFree(pData);
        CPLError(CE_Failure, CPLE_FileIO,
                 "Write of file failed with fwrite error.");
        return CE_Failure;
    }

    CPLFree(pData);
    return CE_None;
}

/************************************************************************/
/*                           GetNoDataValue()                           */
/************************************************************************/
double ILWISRasterBand::GetNoDataValue(int *pbSuccess)

{
    if (pbSuccess)
        *pbSuccess = TRUE;

    if (eDataType == GDT_Float64)
        return rUNDEF;
    if (eDataType == GDT_Int32)
        return iUNDEF;
    if (eDataType == GDT_Int16)
        return shUNDEF;
    if (eDataType == GDT_Float32)
        return flUNDEF;
    if (pbSuccess && (EQUAL(psInfo.stDomain.c_str(), "image") ||
                      EQUAL(psInfo.stDomain.c_str(), "colorcmp")))
    {
        *pbSuccess = FALSE;
    }

    // TODO: Defaults to pbSuccess TRUE.  Is the unhandled case really success?
    return 0.0;
}

/************************************************************************/
/*                      ValueRange()                                    */
/************************************************************************/

static double doubleConv(const char *s)
{
    if (s == nullptr)
        return rUNDEF;
    char *begin = const_cast<char *>(s);

    // skip leading spaces; strtol will return 0 on a std::string with only
    // spaces which is not what we want
    while (isspace((unsigned char)*begin))
        ++begin;

    if (strlen(begin) == 0)
        return rUNDEF;
    errno = 0;
    char *endptr = nullptr;
    const double r = CPLStrtod(begin, &endptr);
    if ((0 == *endptr) && (errno == 0))
        return r;
    while (*endptr != 0)
    {  // check trailing spaces
        if (*endptr != ' ')
            return rUNDEF;
        endptr++;
    }
    return r;
}

ValueRange::ValueRange(const std::string &sRng)
    : _rLo(0.0), _rHi(0.0), _rStep(0.0), _iDec(0), _r0(0.0), iRawUndef(0),
      _iWidth(0), st(stByte)
{
    char *sRange = new char[sRng.length() + 1];
    for (unsigned int i = 0; i < sRng.length(); ++i)
        sRange[i] = sRng[i];
    sRange[sRng.length()] = 0;

    char *p1 = strchr(sRange, ':');
    if (nullptr == p1)
    {
        delete[] sRange;
        init();
        return;
    }

    char *p3 = strstr(sRange, ",offset=");
    if (nullptr == p3)
        p3 = strstr(sRange, ":offset=");
    _r0 = rUNDEF;
    if (nullptr != p3)
    {
        _r0 = doubleConv(p3 + 8);
        *p3 = 0;
    }
    char *p2 = strrchr(sRange, ':');
    _rStep = 1;
    if (p1 != p2)
    {  // step
        _rStep = doubleConv(p2 + 1);
        *p2 = 0;
    }

    p2 = strchr(sRange, ':');
    if (p2 != nullptr)
    {
        *p2 = 0;
        _rLo = CPLAtof(sRange);
        _rHi = CPLAtof(p2 + 1);
    }
    else
    {
        _rLo = CPLAtof(sRange);
        _rHi = _rLo;
    }
    init(_r0);

    delete[] sRange;
}

ValueRange::ValueRange(double min, double max)  // step = 1
{
    _rLo = min;
    _rHi = max;
    _rStep = 1;
    init();
}

ValueRange::ValueRange(double min, double max, double step)
{
    _rLo = min;
    _rHi = max;
    _rStep = step;
    init();
}

static ilwisStoreType stNeeded(unsigned int iNr)
{
    if (iNr <= 256)
        return stByte;
    if (iNr <= SHRT_MAX)
        return stInt;
    return stLong;
}

void ValueRange::init()
{
    init(rUNDEF);
}

void ValueRange::init(double rRaw0)
{
    _iDec = 0;
    if (_rStep < 0)
        _rStep = 0;
    double r = _rStep;
    if (r <= 1e-20)
        _iDec = 3;
    else
        while (r - floor(r) > 1e-20)
        {
            r *= 10;
            _iDec++;
            if (_iDec > 10)
                break;
        }

    short iBeforeDec = 1;
    double rMax = std::max(fabs(get_rLo()), fabs(get_rHi()));
    if (rMax != 0)
        iBeforeDec = (short)floor(log10(rMax)) + 1;
    if (get_rLo() < 0)
        iBeforeDec++;
    _iWidth = (short)(iBeforeDec + _iDec);
    if (_iDec > 0)
        _iWidth++;
    if (_iWidth > 12)
        _iWidth = 12;
    if (_rStep < 1e-06)
    {
        st = stReal;
        _rStep = 0;
    }
    else
    {
        r = get_rHi() - get_rLo();
        if (r <= UINT_MAX)
        {
            r /= _rStep;
            r += 1;
        }
        r += 1;
        if (r > INT_MAX)
            st = stReal;
        else
        {
            st = stNeeded((unsigned int)floor(r + 0.5));
            if (st < stByte)
                st = stByte;
        }
    }
    if (rUNDEF != rRaw0)
        _r0 = rRaw0;
    else
    {
        _r0 = 0;
        if (st <= stByte)
            _r0 = -1;
    }
    if (st > stInt)
        iRawUndef = iUNDEF;
    else if (st == stInt)
        iRawUndef = shUNDEF;
    else
        iRawUndef = 0;
}

std::string ValueRange::ToString() const
{
    char buffer[200];
    if (fabs(get_rLo()) > 1.0e20 || fabs(get_rHi()) > 1.0e20)
        CPLsnprintf(buffer, sizeof(buffer), "%g:%g:%f:offset=%g", get_rLo(),
                    get_rHi(), get_rStep(), get_rRaw0());
    else if (get_iDec() >= 0)
        CPLsnprintf(buffer, sizeof(buffer), "%.*f:%.*f:%.*f:offset=%.0f",
                    get_iDec(), get_rLo(), get_iDec(), get_rHi(), get_iDec(),
                    get_rStep(), get_rRaw0());
    else
        CPLsnprintf(buffer, sizeof(buffer), "%f:%f:%f:offset=%.0f", get_rLo(),
                    get_rHi(), get_rStep(), get_rRaw0());
    return std::string(buffer);
}

double ValueRange::rValue(int iRawIn) const
{
    if (iRawIn == iUNDEF || iRawIn == iRawUndef)
        return rUNDEF;
    double rVal = iRawIn + _r0;
    rVal *= _rStep;
    if (get_rLo() == get_rHi())
        return rVal;
    const double rEpsilon =
        _rStep == 0.0 ? 1e-6
                      : _rStep / 3.0;  // avoid any rounding problems with an
                                       // epsilon directly based on the
    // the stepsize
    if ((rVal - get_rLo() < -rEpsilon) || (rVal - get_rHi() > rEpsilon))
        return rUNDEF;
    return rVal;
}

int ValueRange::iRaw(double rValueIn) const
{
    if (rValueIn == rUNDEF)  // || !fContains(rValue))
        return iUNDEF;
    if (_rStep == 0.0)
        return iUNDEF;
    const double rEpsilon = _rStep / 3.0;
    if (rValueIn - get_rLo() < -rEpsilon)  // take a little rounding tolerance
        return iUNDEF;
    else if (rValueIn - get_rHi() >
             rEpsilon)  // take a little rounding tolerance
        return iUNDEF;
    rValueIn /= _rStep;
    double rVal = floor(rValueIn + 0.5);
    rVal -= _r0;
    return intConv(rVal);
}

}  // namespace GDAL

/************************************************************************/
/*                    GDALRegister_ILWIS()                              */
/************************************************************************/

void GDALRegister_ILWIS()

{
    if (GDALGetDriverByName("ILWIS") != nullptr)
        return;

    GDALDriver *poDriver = new GDALDriver();

    poDriver->SetDescription("ILWIS");
    poDriver->SetMetadataItem(GDAL_DCAP_RASTER, "YES");
    poDriver->SetMetadataItem(GDAL_DMD_LONGNAME, "ILWIS Raster Map");
    poDriver->SetMetadataItem(GDAL_DMD_EXTENSIONS, "mpr mpl");
    poDriver->SetMetadataItem(GDAL_DMD_CREATIONDATATYPES,
                              "Byte Int16 Int32 Float64");
    poDriver->SetMetadataItem(GDAL_DCAP_VIRTUALIO, "YES");

    poDriver->pfnOpen = GDAL::ILWISDataset::Open;
    poDriver->pfnCreate = GDAL::ILWISDataset::Create;
    poDriver->pfnCreateCopy = GDAL::ILWISDataset::CreateCopy;

    GetGDALDriverManager()->RegisterDriver(poDriver);
}
